telegraf/internal/models/running_input_test.go

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package models
import (
"fmt"
"math"
"testing"
"time"
"github.com/influxdata/telegraf"
"github.com/stretchr/testify/assert"
)
func TestMakeMetricNoFields(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
})
m := ri.MakeMetric(
"RITest",
map[string]interface{}{},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Nil(t, m)
}
// nil fields should get dropped
func TestMakeMetricNilFields(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
})
m := ri.MakeMetric(
"RITest",
map[string]interface{}{
"value": int(101),
"nil": nil,
},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest value=101i %d\n", now.UnixNano()),
m.String(),
)
}
// make an untyped, counter, & gauge metric
func TestMakeMetric(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
})
ri.SetTrace(true)
assert.Equal(t, true, ri.Trace())
assert.Equal(t, "inputs.TestRunningInput", ri.Name())
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest value=101i %d\n", now.UnixNano()),
m.String(),
)
assert.Equal(
t,
m.Type(),
telegraf.Untyped,
)
m = ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Counter,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest value=101i %d\n", now.UnixNano()),
m.String(),
)
assert.Equal(
t,
m.Type(),
telegraf.Counter,
)
m = ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Gauge,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest value=101i %d\n", now.UnixNano()),
m.String(),
)
assert.Equal(
t,
m.Type(),
telegraf.Gauge,
)
}
func TestMakeMetricWithPluginTags(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
Tags: map[string]string{
"foo": "bar",
},
})
ri.SetTrace(true)
assert.Equal(t, true, ri.Trace())
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
nil,
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest,foo=bar value=101i %d\n", now.UnixNano()),
m.String(),
)
}
func TestMakeMetricFilteredOut(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
Tags: map[string]string{
"foo": "bar",
},
Filter: Filter{NamePass: []string{"foobar"}},
})
ri.SetTrace(true)
assert.Equal(t, true, ri.Trace())
assert.NoError(t, ri.Config.Filter.Compile())
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
nil,
telegraf.Untyped,
now,
)
assert.Nil(t, m)
}
func TestMakeMetricWithDaemonTags(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
})
ri.SetDefaultTags(map[string]string{
"foo": "bar",
})
ri.SetTrace(true)
assert.Equal(t, true, ri.Trace())
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest,foo=bar value=101i %d\n", now.UnixNano()),
m.String(),
)
}
// make an untyped, counter, & gauge metric
func TestMakeMetricInfFields(t *testing.T) {
inf := math.Inf(1)
ninf := math.Inf(-1)
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
})
ri.SetTrace(true)
assert.Equal(t, true, ri.Trace())
m := ri.MakeMetric(
"RITest",
map[string]interface{}{
"value": int(101),
"inf": inf,
"ninf": ninf,
},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest value=101i %d\n", now.UnixNano()),
m.String(),
)
}
func TestMakeMetricAllFieldTypes(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
})
ri.SetTrace(true)
assert.Equal(t, true, ri.Trace())
m := ri.MakeMetric(
"RITest",
map[string]interface{}{
"a": int(10),
"b": int8(10),
"c": int16(10),
"d": int32(10),
"e": uint(10),
"f": uint8(10),
"g": uint16(10),
"h": uint32(10),
"i": uint64(10),
"j": float32(10),
"k": uint64(9223372036854775810),
"l": "foobar",
"m": true,
},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Contains(t, m.String(), "a=10i")
assert.Contains(t, m.String(), "b=10i")
assert.Contains(t, m.String(), "c=10i")
assert.Contains(t, m.String(), "d=10i")
assert.Contains(t, m.String(), "e=10i")
assert.Contains(t, m.String(), "f=10i")
assert.Contains(t, m.String(), "g=10i")
assert.Contains(t, m.String(), "h=10i")
assert.Contains(t, m.String(), "i=10i")
assert.Contains(t, m.String(), "j=10")
assert.NotContains(t, m.String(), "j=10i")
assert.Contains(t, m.String(), "k=9223372036854775807i")
assert.Contains(t, m.String(), "l=\"foobar\"")
assert.Contains(t, m.String(), "m=true")
}
func TestMakeMetricNameOverride(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
NameOverride: "foobar",
})
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("foobar value=101i %d\n", now.UnixNano()),
m.String(),
)
}
func TestMakeMetricNamePrefix(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
MeasurementPrefix: "foobar_",
})
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("foobar_RITest value=101i %d\n", now.UnixNano()),
m.String(),
)
}
func TestMakeMetricNameSuffix(t *testing.T) {
now := time.Now()
ri := NewRunningInput(&testInput{}, &InputConfig{
Name: "TestRunningInput",
MeasurementSuffix: "_foobar",
})
m := ri.MakeMetric(
"RITest",
map[string]interface{}{"value": int(101)},
map[string]string{},
telegraf.Untyped,
now,
)
assert.Equal(
t,
fmt.Sprintf("RITest_foobar value=101i %d\n", now.UnixNano()),
m.String(),
)
}
type testInput struct{}
func (t *testInput) Description() string { return "" }
func (t *testInput) SampleConfig() string { return "" }
func (t *testInput) Gather(acc telegraf.Accumulator) error { return nil }